Assessment of a field incubation method estimating primary productivity in rockpool communities
Assessment of a field incubation method estimating primary productivity in rockpool communities
An open incubation method has been used in many studies to directly estimate primary productivity and ecosystem functioning by measuring photosynthetic and respiratory rates in intertidal rockpool communities. The method measures changes in dissolved oxygen concentrations recorded in situ during an artificial dark period (respiration) and a natural light period (net primary productivity). Although this method has yielded interesting results, its advantages and limitations have yet to be thoroughly tested. The accuracy of the method was investigated in a controlled laboratory environment and compared with field incubations. Atmospheric oxygen diffusion across the air–water interface did not affect incubation measurements under low wind speed (<2 m s?1). Temperature increases during incubations were not greater than in natural rockpools and did not affect primary productivity. The major problem was the oxygen supersaturation which inhibited photosynthesis, thus leading to an underestimation of primary production. To allow comparable measurements, net primary productivity needs to be recorded during the linear phase of the photosynthetic process (<30 min of light) before water reaches supersaturation (<160%). This method gives rapid and reliable estimates of primary productivity thereby allowing biodiversity and ecosystem functioning relationships to be tested using rockpools as natural mesocosms.
community metabolism, photosynthesis, primary production, community incubation, ecosystem functioning
153-159
Noël, Laure M.-L.J.
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Griffin, John N.
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Thompson, Richard C.
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Hawkins, Stephen J.
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Burrows, Michael T.
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Crowe, Tasman P.
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Jenkins, Stuart R.
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10 June 2010
Noël, Laure M.-L.J.
a2a3c4a4-54dc-4399-93a2-425f3d96c859
Griffin, John N.
79938a80-7d40-4894-83e9-3e79fc312c71
Thompson, Richard C.
f439ea56-b6dd-48cf-8adb-d9c2ecc6e24d
Hawkins, Stephen J.
758fe1c1-30cd-4ed1-bb65-2471dc7c11fa
Burrows, Michael T.
a38026ff-26eb-4a99-8cdd-34bf6b9b479d
Crowe, Tasman P.
9ce97cbc-c45f-426b-8e28-c4c93a500593
Jenkins, Stuart R.
63f5521f-fe3a-4dae-b582-4a6a8d3aa936
Noël, Laure M.-L.J., Griffin, John N., Thompson, Richard C., Hawkins, Stephen J., Burrows, Michael T., Crowe, Tasman P. and Jenkins, Stuart R.
(2010)
Assessment of a field incubation method estimating primary productivity in rockpool communities.
Estuarine, Coastal and Shelf Science, 88 (1), .
(doi:10.1016/j.ecss.2010.03.005).
Abstract
An open incubation method has been used in many studies to directly estimate primary productivity and ecosystem functioning by measuring photosynthetic and respiratory rates in intertidal rockpool communities. The method measures changes in dissolved oxygen concentrations recorded in situ during an artificial dark period (respiration) and a natural light period (net primary productivity). Although this method has yielded interesting results, its advantages and limitations have yet to be thoroughly tested. The accuracy of the method was investigated in a controlled laboratory environment and compared with field incubations. Atmospheric oxygen diffusion across the air–water interface did not affect incubation measurements under low wind speed (<2 m s?1). Temperature increases during incubations were not greater than in natural rockpools and did not affect primary productivity. The major problem was the oxygen supersaturation which inhibited photosynthesis, thus leading to an underestimation of primary production. To allow comparable measurements, net primary productivity needs to be recorded during the linear phase of the photosynthetic process (<30 min of light) before water reaches supersaturation (<160%). This method gives rapid and reliable estimates of primary productivity thereby allowing biodiversity and ecosystem functioning relationships to be tested using rockpools as natural mesocosms.
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Published date: 10 June 2010
Keywords:
community metabolism, photosynthesis, primary production, community incubation, ecosystem functioning
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Local EPrints ID: 187769
URI: http://eprints.soton.ac.uk/id/eprint/187769
ISSN: 0272-7714
PURE UUID: b24452e7-b0b8-4c95-8527-60ed42a0c754
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Date deposited: 18 May 2011 10:17
Last modified: 14 Mar 2024 03:27
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Author:
Laure M.-L.J. Noël
Author:
John N. Griffin
Author:
Richard C. Thompson
Author:
Michael T. Burrows
Author:
Tasman P. Crowe
Author:
Stuart R. Jenkins
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